Electric-field-dependent g factor for the ground state of lead monofluoride, PbF

The electric field dependent g–factor and the electron electric dipole moment (eEDM)-induced Stark splittings for the lowest rotational levels of 207,208PbF are calculated. Observed and calculated Zeeman shifts for 207PbF are found to be in very good agreement. Furthermore, it is shown that the 207P...

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Veröffentlicht in:Physical review. A 2021-07, Vol.104 (1), Article 012811
Hauptverfasser: Baturo, V. V., Rupasinghe, P. M., Sears, T. J., Mawhorter, R. J., Grabow, J.-U., Petrov, A. N.
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container_issue 1
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container_title Physical review. A
container_volume 104
creator Baturo, V. V.
Rupasinghe, P. M.
Sears, T. J.
Mawhorter, R. J.
Grabow, J.-U.
Petrov, A. N.
description The electric field dependent g–factor and the electron electric dipole moment (eEDM)-induced Stark splittings for the lowest rotational levels of 207,208PbF are calculated. Observed and calculated Zeeman shifts for 207PbF are found to be in very good agreement. Furthermore, it is shown that the 207PbF hyperfine sublevels provide a promising system for the eEDM search and related experiments.
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Electronic structure of atoms & molecules
Fine & hyperfine structure
Zeeman effect
title Electric-field-dependent g factor for the ground state of lead monofluoride, PbF
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